EP1977346A1 - Distributed replica storage system with web services interface - Google Patents
Distributed replica storage system with web services interfaceInfo
- Publication number
- EP1977346A1 EP1977346A1 EP06851975A EP06851975A EP1977346A1 EP 1977346 A1 EP1977346 A1 EP 1977346A1 EP 06851975 A EP06851975 A EP 06851975A EP 06851975 A EP06851975 A EP 06851975A EP 1977346 A1 EP1977346 A1 EP 1977346A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- given
- keymap
- recited
- replicas
- web services
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F15/00—Digital computers in general; Data processing equipment in general
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
- H04L67/1097—Protocols in which an application is distributed across nodes in the network for distributed storage of data in networks, e.g. transport arrangements for network file system [NFS], storage area networks [SAN] or network attached storage [NAS]
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F15/00—Digital computers in general; Data processing equipment in general
- G06F15/16—Combinations of two or more digital computers each having at least an arithmetic unit, a program unit and a register, e.g. for a simultaneous processing of several programs
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/10—File systems; File servers
- G06F16/18—File system types
- G06F16/182—Distributed file systems
- G06F16/184—Distributed file systems implemented as replicated file system
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/46—Multiprogramming arrangements
- G06F9/54—Interprogram communication
- G06F9/547—Remote procedure calls [RPC]; Web services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
Definitions
- the web services interface may be further configured to receive, according to the web services protocol, client requests to store data objects, where a particular client request to store a particular data object includes a key value corresponding to the particular data object.
- the coordinator may be further configured to receive the client requests to store data objects from the web services interface, and in response to the particular client request, the coordinator may be configured to store one or more replicas of the particular data object to one or more corresponding storage nodes.
- a given storage node may be configured to return a locator value corresponding to the given replica to the coordinator.
- FIG. 7 is a flow diagram illustrating one embodiment of a method of performing an object put operation.
- a client may provide metadata along with object data to be stored as metadata 31, while in other cases, metadata 31 may include metadata generated by the system that manages storage service features (e.g., the storage service system illustrated in FIG. 2 and described below). Some, all or none of metadata 31 may be accessible to a client having access rights to an object 30, depending on the type of metadata, specific provisions of the client's access rights, or other suitable factors.
- platform 100 may also implement user authentication and access control procedures. For example, for a given web services request to access a particular object 30 associated with a given bucket 20, platform 100 may be configured to ascertain whether the client 50 associated with the request is authorized to access given bucket 20 and particular object 30. Platform 100 may determine such authorization by, for example, evaluating an identity, password or other credential against credentials associated with given bucket 20, and evaluating the requested access to particular object 30 against an access control list specifying allowable operations to particular object 30.
- coordinators 120 may be configured to generate identifiers for newly created buckets 20 using a suitable random number algorithm with a low probability of generating collisions. In other embodiments, coordinators 120 may be configured to support client-specified bucket identifiers, for example by checking requested identifiers for uniqueness with respect to existing bucket identifiers upon a client request for bucket creation.
- the number of valid replicas of an object 30 may be less than a desired or target number of replicas.
- a replication storage policy to be enforced across the storage service system may specify that a particular target number of replicas of each object 30 (e.g., 3 or any other suitable number) should exist at any given time.
- the actual number of valid replicas might be less than the target number, for a variety of reasons. For example, a previously valid replica may become inaccessible due to a failure of the device on which it was stored.
- the number of instances of an object 30 that are written by a coordinator 120 may be less than the target number of replicas for that object 30.
- the instances may be written according to a write plan specified by nodepicker 130, which may take into account a durability policy that requires fewer instances than the target number.
- node 160 may be configured to prevent client access to a locator that was previously released, regardless of whether the object data is still available.
- node 160 may improve the performance of node 160 in processing large objects that may be frequently modified by limiting the scope of the chunks that may need to be rewritten.
- node 160 may include those features necessary to support modification of objects 30 in place rather than through the release-rewrite approach just described.
- manager 165 may be configured to assign an object index value (also referred to as an object index) to each object 30 stored to a node 160.
- an object index value also referred to as an object index
- the index of any given object 30 may be unique within a particular node 160.
- the object index may be obtained by incrementing a counter whenever an object 30 is stored to a node 160, and using the resulting counter value as the object index.
- storage devices 169 may include any suitable types of storage devices that may be supported by file system 167 and/or manager 165.
- Storage devices 169 may commonly include hard disk drive devices, such as Small Computer System Interface (SCSI) devices or AT Attachment Programming Interface (ATAPI) devices (which may also be known as Integrated Drive Electronics (IDE) devices).
- SCSI Small Computer System Interface
- ATAPI AT Attachment Programming Interface
- IDE Integrated Drive Electronics
- storage devices 169 may encompass any type of mass storage device including magnetic- or optical-medium-based devices, solid-state mass storage devices (e.g., nonvolatile- or "Flash"-memory-based devices), magnetic tape, etc.
- a node ID may be formed through the concatenation or combination of a unique network address, such as an Internet Protocol (IP) address corresponding to a given node 160, with a timestamp or datestamp.
- IP Internet Protocol
- a node 160 may be assigned a node ID according to its IP address (e.g., at node startup/initialization or at the time the node ID is assigned, if not during initialization) in combination with a timestamp reflecting the time at which the IP address was assigned, or a time during which the IP address is known to be valid.
- IP Internet Protocol
- the combination of a node's IP address and a timestamp value may yield an identifier unique to that node.
- a 32-bit IP address may be concatenated or combined with a 32-bit timestamp (e.g., that represents the number of seconds elapsed since some common reference time) to yield the 64-bit node ID referred to above, although other bit widths may be employed.
- a central authority such as a name server may delegate node IDs upon request in a fashion that guarantees the uniqueness of node IDs, similar to the assignment of object index values within a node 160 as described above.
- a get operation may begin in block 600 where the operation is received at node 160 from a coordinator 120 or other client.
- a coordinator 120 may issue a get operation to a particular locator that includes a node ID and an object index value, as described above.
- the node ID may be used directly to route the get operation to the appropriate node 160, for example if the node ID reflects the current IP address of the target node 160.
- a directory service such as DFDD 110, described below, may be employed to resolve the node ID of a locator into an addressable endpoint or destination through which the get operation may be routed to the appropriate node 160.
- references to physical files may then be mapped to device-relative requests (block 606).
- file system 167 may be configured to generate one or more read requests to specific addressable locations of storage device(s) 169, such as logical block addresses (LBAs) or addresses specific to device geometries (e.g., cylinder, track, sector and/or head).
- LBAs logical block addresses
- manager 165 may be configured to bypass file system 167 and manage storage device(s) 169 directly.
- a release operation may be processed to identify the extents of the targeted object instance within the logical object storage space of node 160 (block 802).
- controller 161 may receive the release operation and convey it to manager 165.
- manager 165 may use the object index portion of the locator referenced by the release operation to access index table 500 in order to identify the corresponding entry 510 of the referenced object instance.
- the referenced object may then be marked as released (block 804).
- manager 165 may be configured to set the offset or another field of entry 510 to an illegal value, such as a negative number, which may signify that the entry is no longer valid.
- An acknowledgement may then be returned to the requesting client indicating that the object has been released (block 806).
- manager 165 may perform similar repacking or consolidation operations within the physical file storage space in response to the repacking of the logical object storage space. For example, manager 165 may cause logical object data extents to be remapped to different physical file data extents. Similarly, in some embodiments file system 167 may perform analogous repacking or consolidation operations among storage device(s) 169 in response to repacking of the physical file storage space. In other embodiments, repacking of the physical file storage space or the storage devices themselves may occur independently of the logical object storage space repacking initiated by repacker 163.
- any of the get, put, release or other operations that may be supported by node 160 may support various types of handshaking, acknowledgement, or error handling protocols with respect to the requesting client. For example, if a client requests a malformed request for an operation (e.g., fails to supply a necessary parameter), or if node 160 cannot satisfactorily complete the operation (e.g., has insufficient resources to honor a put operation), node 160 may return an error indication to the requesting client. Such an indication may or may not include specific details regarding the nature of the fault condition.
- a coordinator 120 may be configured to independently convey operations to each respective node 160 targeted by the operations, even when multiple operations may have data in common.
- record 148 may include more, fewer or different fields than those shown.
- record 148 may be referred to as an "inode,” drawing on the similarity of purpose of record 148 in organizing a storage space to the inode structure employed in certain types of Unix file systems.
- inode drawing on the similarity of purpose of record 148 in organizing a storage space to the inode structure employed in certain types of Unix file systems.
- the use of the term "inode" in the present context is not intended to invoke specific details of the implementation or use of inodes within file systems or other storage contexts.
- the 64-bit objectSize element may be used to store an indication of the size of the corresponding object, e.g., in bytes. In some embodiments, this element may reflect the size of both object data and metadata, while in other embodiments these may be stored as distinct fields.
- the 32-bit crc32 element may be used to store an indication of the Cyclic Redundancy Check (CRC) checksum computed for the object data and/or metadata according to any suitable checksum algorithm. For example, the checksum may be included to verify data integrity against corruption or tampering. In other embodiments, any suitable type of hash or signature computed from object data and/or metadata may be used in addition to or in place of the CRC checksum.
- CRC Cyclic Redundancy Check
- atomic update semantics may minimize or even eliminate the possibility of updates leaving keymap data in an inconsistent state
- the performance of atomic updates may degrade considerably in a distributed environment of considerable scale. For example, if replicas of keymap data are widely distributed, replica access latency from the perspective of the client may vary considerably, with the slowest replica dictating the overall time required to complete an update operation.
- strict atomic update semantics may cause clients to stall until the failure is corrected, which may lead to unacceptable delays to clients.
- the entry 144 used as the basis for the put operation may be the entry with the most recent (e.g., numerically or lexicographically highest) associated timestamp among the different values read.
- discrepancies among replicas may be resolved "on the fly," e.g., as keymap entry get operations are processed, without requiring a distinct process or operation to repair the discrepancies.
- the hierarchy of keymap instance 140 may then be navigated to identify the replicas corresponding to the keymap entry get operation (block 1402). Subsequently, individual get operations may be directed to the identified replicas (block 1404). For each get operation, the remaining hierarchy of keymap instance 140 may be navigated to access and retrieve the corresponding entry 144 (block 1406). Once a given replica of an entry 144 has been successfully retrieved, the corresponding get operation may indicate success (block 1408). It is noted that, as with the individual put operations described above and shown in FIG. 13, the individual get operations targeting respective replicas of an entry 144 may execute concurrently, and blocks 1406- 1408 are correspondingly shown in parallel.
- one of the replicas may be selected according to a selection criterion (block 1416).
- the criterion may include considering the timestamp value of each replica, where the replica having the highest timestamp value may be selected.
- a keymap entry put operation may then be initiated using the data of the selected replica (block 1418).
- the put operation may be performed according to FIG. 13 as described above.
- a quorum number of replicas of the originally-requested entry 144 may be written with the contents of the selected replica, decreasing the likelihood that a future get operation will encounter a discrepancy among replicas.
- keymap operations such as put and delete operations are directed to a particular keymap instance 140
- the state of entries 144 within that particular keymap instance 140 may change over time.
- different keymap instances 140 within a deployment may tend to become divergent or inconsistent over time. If only one storage service client 50 references a given object 30, and does so via the same keymap instance 140, such divergence may have no practical effect. However, if multiple storage service clients 50 refer to the same key via different keymap instances 140, such inconsistency may cause clients 50 to observe different keymap state and/or different versions of object data at the same point in time.
- unbalanced index 200 (or simply, index 200) includes a number of nodes 210 arranged in a hierarchical fashion to index a number of string values beginning with the prefix "al".
- the indexed values may correspond to keys 146 of various entries 144 of a keymap instance 140.
- Each node 210 within index 200 includes an associated tag value that may or may not directly correspond to a data item being indexed.
- nodes depicted as ovals may correspond to interior nodes of index 200 that do not have corresponding data items, while nodes depicted as rectangles may correspond to indexed data items.
- a hash algorithm may be configured to map a given source data value of possibly arbitrary length onto a smaller, typically fixed-length hash value such that if two hash values differ, the original source data values from which the two hash values were generated must also differ in some way.
- identity between two hash values does not necessarily imply identity between original source data values.
- identity between original source data values given identical hash values may be statistically likely to within a quantifiable probability or degree of confidence, particularly for source data values that exhibit some degree of redundancy.
- Different types of hash algorithms may also be referred to as signature, fingerprint or checksum algorithms. It is contemplated that any suitable type of hash algorithm may be employed to generate a hash value to be stored in fingerprint fields 216, including, by way of non-limiting example, any suitable version of the Message Digest 5 (MD5) algorithm or the
- the new node 210 may be created and its various fields appropriately set for the entry 144 to be stored, and a pointer 218 to the new node 210 may be stored within the selected node 210. It is noted that if a new node 210 is added to an index 200 or an existing node 210 is modified, the count fields 214 and fingerprint fields 216 of all ancestor nodes 210 of the added or modified node 210 may be updated to reflect the change. [0215] Returning to block 2006, if the tag 212 of the selected node 210 does not match the search value and is not a prefix of the search value, then an index miss may also occur, and processing may continue from block 2022.
- unbalanced indexes 200 or stratified unbalanced indexes 220 may be used to index keymap entries 144 within keymap instances 140.
- stratified indexes 220 may be employed to implement one or more of partition index 410, block index 420 or entry index 430, or any other levels of indexing that might be implemented within keymap instances 140.
- different keymap instances 140 may be divergent or inconsistent in the ordinary course of operation when a relaxed synchronization protocol is employed.
- the DATA message may be used to convey data about one or more index nodes 210 from one keymap instance 140 to another.
- the DATA message may be configured to convey only the tag 212 associated with a given node 210, while in other embodiments the DATA message may convey other fields associated with given node 210.
- the DATA message may also include all or some portion of the data item associated with the given node 210 (e.g., an entry 144 or information about a root node 210 of another index 200).
- the FINGERPRINT and FILTER messages may be configured to communicate information about aggregations of nodes 210.
- the FINGERPRINT message may be configured to convey the fingerprint field 216 of a node 210 along with its tag 212 from one keymap instance 140 to another.
- the fingerprint field 216 of a given node 210 may be configured to store a hash value that is determined as a function of the descendants of the given node 210.
- a keymap instance 140 sends a FINGERPRINT message for a node 210 that has the tag "al" and some number of descendants
- the instance may include a got-data parameter indicating that the instance has some nodes 210 within the prefix space defined by "al".
- the instance may also include a need-data parameter, for example if its copy of the prefix space defined by "al" is believed to be incomplete.
- the got- data parameter may be implicit in the DATA and HASH messages, while the need-data parameter may be implicit in the FILTER and REQUEST messages, although a DATA or HASH message may explicitly specify a need-data parameter while a FILTER or REQUEST message may explicitly specify a got-data parameter.
- the received tag value may be compared against the fingerprint field 216 of the particular node 210 to determine whether the two fingerprints match (block 2108). If so, then it may be highly probable (e.g., subject to the probability of the fingerprint algorithm in use producing two fingerprints that collide, or have the same value, despite being generated from different data) that the message sender and the message receiver are synchronized with respect to the received tag value.
- the FILTER message may be useful in allowing a sender to communicate specific information about certain nodes 210 to a receiver.
- the number of nodes 210 that may be encoded into the FILTER message while preserving a reasonable false-positive rate may be limited to a certain threshold value. If the number of descendant nodes 210 exceeds this threshold at the message receiver node 210 that matches the received tag value, it may be more efficient to perform additional FINGERPRINT message processing before sending FILTER messages.
- Processing of a REQUEST message may simply include the message receiver identifying each node 210 for which the received tag value included in the message matches or is a prefix of the corresponding tag field 212, for example using the unbalanced index navigation techniques described above. For each identified node 210, a corresponding DATA message, configured as described above, is returned to the message sender. In one embodiment, processing of a received DATA message may include identifying whether a node 210 corresponding to the tag value indicated in the message exists at the message receiver. If not, a corresponding node 210 may be created and populated with data extracted from the message.
- a DATA message may include the contents of an entry 144 corresponding to a node 210 at the message sender, and entry 144 may include timestamp information that may be compared with corresponding timestamp information at the message receiver to ascertain whether the received entry 144 is more current than the existing entry 144. If so, the received entry 144 may replace the existing entry 144.
- implementation of any type of random generation or selection of events described herein may employ any suitable algorithm or technique for random number or event generation.
- computational techniques for implementing random methods may not produce purely random results, but rather pseudorandom results.
- pseudorandom algorithms may specify deterministic processes configured to generate statistically random results.
- the generation of "random" or “substantially random” data is intended to include any suitable pseudorandom computational techniques as well as purely random data sources.
- state information 1 14 may reflect operating state information that may be specific to or customized for a particular application instance or type of instance. For example, if an application instance corresponds to a bitstore manager of a particular bitstore node 160, its state information 114 may include information about the quantity of available storage resources on that particular node, the type of those resources
- state information may include information about the number of entries 144 managed by the particular keymap instance, keymap storage resources used or available, or other relevant keymap state information.
- selection of what application instance-specific state information to include within a corresponding DFDD entry 1 11 may be determined according to the requirements of DFDD clients. For example, state information that may be useful in assisting a coordinator 120 or nodepicker 130 in selecting a particular bitstore or keymap application instance from among several choices may be included within the DFDD entries 111 of those application instances.
- an application instance may be configured to send heartbeat information to an instance of DFDD 1 10 that is closest to the application instance.
- an instance of DFDD 1 10 may be provisioned on each computer system that is configured to host one or more other application instances, so that application instances may readily access a local instance of DFDD 1 10 simply by referring to the local IP address of their host and using a well-known IP port reserved for application instance-DFDD communication.
- synchronization of application instance operating state information among DFDD instances may involve synchronization of heartbeat information without directly exchanging the particular global operating state (e.g., OK, INCOMMUNICADO, etc.) of an application instance, which may simplify the operation of the synchronization protocol.
- the particular global operating state e.g., OK, INCOMMUNICADO, etc.
- a storage class may specify only a particular subset of SLA characteristics (e.g., number and distribution of object replicas as discussed below), while in other embodiments, a storage class may correspond directly to a comprehensive SLA that encompasses all defined aspects of the SLA agreement with respect to a given object 30.
- a storage service system may define a fixed set of storage classes each having specific defined SLA characteristics, and clients 50 may choose to associate specific objects 30 with particular storage classes. For example, a default storage class may specify that an object 30 will be replicated at least three times to at least two different areas 310. A high-reliability storage class may specify that an object 30 will be replicated at least five times to at least three different areas 310.
- the storage characteristics specified by a given storage class may include distinguishing among different types of storage resources available via bitstore nodes 160.
- some bitstore nodes 160 may include higher-performance storage devices than others, or an individual bitstore node 160 may include a combination of higher- and lower-performance devices.
- a storage class may specify that one or the other type of device should be used for objects 30 associated with that class. Dynamic replication
- Nodepicker 130 may generally use any suitable function of state information of nodes 160 in dynamically determining a write plan for an object 30.
- storage policies implemented by nodepicker 130 may specify guidelines or requirements for state information that constrain the nodes 160 that may be eligible to be included in a write plan for a particular object 30.
- nodepicker 130 may also be configured to generate a write plan according to various types of optimization on node state information. For example, as an alternative to specifying a particular maximum network cost or other cost associated with a write plan, a storage policy may specify that the cost should be minimized among the resources that are available at a particular time. Correspondingly, nodepicker 130 may be configured to minimize one or more costs associated with a write plan, for example by selecting nodes 160 having lower network communication or other associated costs. In some embodiments, such minimization may occur in the presence of other constraints, such as other storage policies specifying other node state information requirements. [0291 [ Additionally, it is noted that in some embodiments, some node state information may vary over time in a predictable fashion.
- nodepicker 130 may be configured to dynamically determine write plans for objects 30 on the basis of maximizing the number of storage policies that can be satisfied by the write plan. In the presence of suboptimal conditions, this may result in a write plan that represents a "best effort" to satisfy storage policies.
- the area diversity policy may not be satisfiable owing to the communication failure, but the minimum replication policy may be satisfiable by storing the required minimum number of replicas of particular object 310 within the local area 310.
- the maximization of storage policies may take place under various constraints.
- FIG. 27 illustrates one embodiment of a method of dynamically determining a write plan for storing one or more replicas of a data object according to current state information of bitstore nodes 160.
- operation begins in block 2700 where a client request to store a given object 30 is received.
- a request may be received according to a web services protocol via web services interface 100, as described in detail above.
- any of the methods or techniques described above may be implemented as program instructions and data capable of being stored or conveyed via a computer-accessible medium.
- Such methods or techniques may include, for example and without limitation, the functions of storage clients 50, web services platform 100, DFDD 1 10, coordinator(s) 120, nodepicker 130, keymap instance(s) 140, bitstore node(s) 160, replicator 180 and/or replicator keymap 190.
- Such methods or techniques may further include any of the methods illustrated in FIGs. 6-9, 13-15, 20-22 and 25-28 and any suitable variations thereof.
- FIG. 29 Such a system may also be referred to as a node.
- a node may also be referred to as a node.
- the functionality of any of the various storage system components described above may be distributed across a number of nodes, such that a given component may be implemented by one or more nodes or partitioned across several nodes. While in some embodiments, a node may exclusively implement the functions of a single storage service system component, in other embodiments a node may implement the functionality of all or portions of several different system components.
- computer system 2900 includes one or more processors 2910 coupled to a system memory 2920 via an input/output (I/O) interface 2930. Computer system 2900 further includes a network interface 2940 coupled to I/O interface 2930.
- I/O input/output
- system memory 2920 may be one embodiment of a computer-accessible medium configured to store program instructions and data as described above. However, in other embodiments, program instructions and/or data may be received, sent or stored upon different types of computer-accessible media.
- a computer-accessible medium may include storage media or memory media such as magnetic or optical media, e.g., disk or CD/DVD-ROM coupled to computer system 2900 via I/O interface 2930.
- a computer-accessible medium may also include any volatile or non-volatile media such as RAM (e.g. SDRAM, DDR SDRAM, RDRAM, SRAM, etc.), ROM, etc, that may be included in some embodiments of computer system 2900 as system memory 2920 or another type of memory.
Abstract
Description
Claims
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US11/371,304 US7716180B2 (en) | 2005-12-29 | 2006-03-08 | Distributed storage system with web services client interface |
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Effective date: 20230522 |